如何实现可验证的Agentic Workflow？MermaidFlow开启安全、稳健的智能体流程新范式

Core Viewpoint - The article discusses the advancements in Multi-Agent Systems (MAS) and introduces "Agentic Workflow" as a key concept for autonomous decision-making and collaboration among intelligent agents, highlighting the emergence of structured and verifiable workflow frameworks like "MermaidFlow" [1][4][22]. Group 1: Introduction to Multi-Agent Systems - The development of large language models is driving the evolution of AI agents from single capabilities to complex system collaborations, making MAS a focal point in both academia and industry [1]. - Leading teams, including Google and Shanghai AI Lab, are launching innovative Agentic Workflow projects to enhance the autonomy and intelligence of agent systems [2]. Group 2: Challenges in Current Systems - Existing systems face significant challenges such as lack of rationality assurance, insufficient verifiability, and difficulty in intuitive expression, which hinder the reliable implementation and large-scale deployment of MAS [3]. Group 3: Introduction of MermaidFlow - The "MermaidFlow" framework, developed by researchers from Singapore's A*STAR and Nanyang Technological University, aims to advance agent systems towards structured evolution and safe verifiability [4]. - Traditional workflow expressions often rely on imperative code like Python scripts or JSON trees, leading to three core bottlenecks: opaque structure, verification difficulties, and debugging challenges [7][10]. Group 4: Advantages of MermaidFlow - MermaidFlow introduces a structured graphical language that models agent behavior planning as a clear and verifiable flowchart, enhancing the interpretability and reliability of workflows [8][12]. - The structured representation allows for clear visibility of agent definitions, dependencies, and data flows, facilitating easier debugging and optimization [11][14]. Group 5: Performance and Evolution - MermaidFlow demonstrates a high success rate of over 90% in generating executable and structurally sound workflows, significantly improving the controllability and robustness of agent systems compared to traditional methods [18]. - The framework supports safe evolutionary optimization through a structured approach, allowing for modular adjustments and ensuring compliance with semantic constraints [16][19]. Group 6: Conclusion - As MAS and large model AI continue to evolve, achieving structured, verifiable, and efficient workflows is crucial for agent research, with MermaidFlow providing a foundational support for effective collaboration processes [22].